A transistor of an integrated circuit is provided. A first doped well region is formed in a well layer at a first active region. At least part of the first doped well region is adjacent to a gate electrode of the transistor. A recess is formed in the first doped well region, and the recess preferably has a depth of at least about 500 angstroms. A first isolation portion is formed on an upper surface of the well layer at least partially over an isolation region. A second isolation portion is formed at least partially in the recess of the first doped well region. At least part of the second isolation portion is lower than the first isolation portion. A drain doped region is formed in the recess of the first doped well region. The second isolation portion is located between the gate electrode and the drain doped region.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A transistor of an integrated circuit, comprising: a well layer formed on a substrate, the well layer having an upper surface; a first insulating region formed in the well layer to define a first active region in the well layer; a first doped well region formed in the well layer at the first active region, at least part of the first doped well region being adjacent to a gate electrode of the transistor; a recess formed in the first doped well region; a second insulating region formed on the upper surface of the well layer at least partially over the first isolation region; a third insulating region formed at least partially in the recess of the first doped well region, such that at least part of the third insulating is lower than the second insulating region; and a drain doped region formed in the recess of the first doped well region adjacent to the lower part of the third insulating region, such that the third insulating region is located between the gate electrode and the drain doped region.
2. The transistor of claim 1 , wherein at least part of the third insulating region is at least about 500 angstroms lower than the second insulating region.
3. The transistor of claim 1 , wherein at least part of the third insulating region is at least about 1000 angstroms lower than the second insulating region.
4. The transistor of claim 1 , wherein the recess has a depth of at least about 500 angstroms.
5. The transistor of claim 1 , wherein the recess has a depth of at least about 1000 angstroms.
6. The transistor of claim 1 , wherein the recess has a depth of at least about 2000 angstroms.
7. The transistor of claim 1 , wherein the transistor is an LDMOS transistor.
8. The transistor of claim 1 , further comprising a buried doped layer formed in the substrate under the well layer at the first active region.
9. The transistor of claim 1 , wherein part of the first doped well region extends below the gate electrode.
10. The transistor of claim 1 , wherein the recess is formed by forming and removing a temporary field oxide structure over the first doped well region.
11. The transistor of claim 10 , wherein the temporary field oxide structure is formed by a thermal growth process.
12. The transistor of claim 10 , wherein the temporary field oxide structure is formed using a patterned mask formed on the upper surface of the well layer.
13. The transistor of claim 12 , wherein the patterned mask is formed of a pad oxide layer and a silicon nitride layer.
14. The transistor of claim 10 , wherein the first doped well region is formed over a buried doped region.
15. The transistor of claim 14 , wherein the first doped well region is bounded by an isolation region.
16. The transistor of claim 15 , wherein the isolation region is formed above the buried doped region.
17. The transistor of claim 16 , wherein the first doped well region is N-type.
18. The transistor of claim 17 , further comprising a second doped well region.
19. The transistor of claim 18 , wherein the second doped well region is P-type.
20. The transistor of claim 19 , wherein a substantial portion of the gate electrode is positioned above the second doped well region.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
August 11, 2004
October 17, 2006
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